Genome-wide identification of grape ANS gene family and expression analysis at different fruit coloration stages

Background Anthocyanin synthase (ANS) is the enzyme downstream of the anthocyanins synthesis pathway and the rate-limiting enzyme of the synthesis pathway. It catalyzes the conversion of colorless anthocyanins to anthocyanins and plays an important role in plant color presentation and stress resistance. However, ANS gene is rarely studied in grapes. Results In this study, 121 VvANS genes were identified and distributed on 18 chromosomes, VvANS family members were divided into 8 subgroups. Secondary structure prediction showed mainly irregular coils and α-helices, and subcellular localization indicated that VvANS gene family is mainly located in chloroplast, cytoplasm and nucleus. The promoter region of the VvANS gene family contains multiple cis-acting elements that are associated with light, abiotic stress, and hormones. Intraspecific collinearity analysis showed that there were 13 pairs of collinearity between VvANS genes. Interspecific collinearity analysis showed that there was more collinearity between grape, apple and Arabidopsis, but less collinearity between grape and rice. Microarray data analysis showed that VvANS17, VvANS23 and VvANS75 had higher expression levels in flesh and peel, while VvANS25, VvANS64 and VvANS106 had higher expression levels in flower. The results of qRT-PCR analysis showed that VvANS genes were expressed throughout the whole process of fruit coloring, such as VvANS47 and VvANS55 in the green fruit stage, VvANS3, VvANS64 and VvANS90 in the initial fruit color turning stage. The expression levels of VvANS21, VvANS79 and VvANS108 were higher at 50% coloring stage, indicating that these genes play an important role in the fruit coloring process. VvANS4, VvANS66 and VvANS113 had the highest expression levels in the full maturity stage. Conclusions These results indicated that different members of VvANS gene family played a role in different coloring stages, and this study laid a foundation for further research on the function of ANS gene family. Supplementary Information The online version contains supplementary material available at 10.1186/s12870-023-04648-3.


Background
Grape is one of the most productive fruits in the world, has a long history of cultivation, with rich nutritional value, loved by consumers [1].Grapes have a variety of benefits to the human body, such as antioxidants, antiinflammatory, anti-cancer, anti-aging and liver protection functions [2,3], and many processed by-products have high phenolic substances, such as wine, grape juice, raisins, etc., research found that raisins can be used to treat constipation and thirst [4].
Flavonoids are the most abundant polyphenols in plants and a class of large secondary metabolites, which are widely found in fruits and vegetables.Flavonoids can be categorized into flavonols, flavones, isoflavones, anthocyanidins, flavanones, flavanols, and chalcones based on their chemical structure [5].With the deepening of research on flavonoids, it has been found that they have a wide range of biological activities, including antioxidant, anti-inflammatory, anti-tumor, cardiovascular protection, antiviral, liver protection and immunomodulatory activities [6][7][8][9].
Anthocyanin is a flavonoid that is formed after the glycosylation of anthocyanins, so that anthocyanins can be stable in the vacuole of plant cells.Anthocyanin is widely distributed in plant tissues, endowing roots, stems, leaves, flowers, fruits and other organs with different degrees of pink, red, orange, blue, purple and other colors, is one of the important material basis of plant color [10].Anthocyanins are mainly divided into the six major categories, pelargonidin, cornflower, peonidin, delphinidin, malvidin and petunia pigments [11].Anthocyanins also play a vital role in protecting plants from UV radiation, enhancing plant resistance to pathogens and promoting seed dispersal [12].Anthocyanin reduces alcohol damage to the liver [13].Anthocyanin also has an anti-cancer and anti-diabetic function [14,15].Anthocyanin biosynthesis involves many structural genes essential for flavonoid biosynthesis, including phenylalanine ammonialyase, cinnamate-4-hydroxylase, 4-coumarate: coenzyme A ligase, chalcone synthase, chalcone isomerase, flavanone-3-hydroxylase, dihydroflavonol 4-reductase, anthocyanin synthase and UDP flavonoid glucosyltransferase [16].
Anthocyanin synthase (ANS) belongs to 2-ketoglutarate-dependent dioxygenase, also known as leucoanthocyanidin dioxygenase (LDOX).Its main function is to catalyze the conversion of colorless anthocyanin to colored anthocyanin [17].Its catalytic product is the first chromogenic compound in the anthocyanin biosynthesis pathway and plays an important role in the formation of plant organ color [18].Studies of LDOX in Arabidopsis Thaliana showed that the decrease of LDOX allelic mutant anthocyanins and proanthocyanidins resulted in lighter seed coat color [19].Some studies have shown that ANS is expressed in red Perilla fulescens leaves, but not in green Perilla [20].Forsythia intermedia ANS is only expressed in sepals but not in petals or anthers, resulting in the inability to synthesize anthocyanins in petals [21].MIYAZAKI [22] adopted RNA interference technology to inhibit the ANS gene of blue butterfly grass (Torenia hybrida), and cultivated a stable genetic white flower butterfly grass.The Basil (Ocimum basilicum) genome was found to contain two homologous ANS genes, each with a loss-of-function mutation.ObANS1 carries a single base pair insertion, resulting in frameshift, while ObANS2 carries a missense mutation within the active site.In the parents of purple flowers, ANS1 is functional and ANS2 carries nonsense mutations [23].Kim [24] found that the loss of anthocyanin synthesis in onion was due to the allelic variation of two new ANS genes.In Brassica juncea, BjANS were found to be involved in the biosynthesis of procyanidins and the formation of mustard seed coat color, while the lack of BjANS expression hindered the biosynthesis of procyanidins in the yellow seed coat, resulting in the yellow color of the seeds due to the transparent seed coat [25].
There are many reports on ANS gene family, but few are studied in grapes, especially in terms of peel coloration.In this study, we identified members of the grape ANS gene family from the plant genome database and used bioinformatics to analyze the physicochemical properties of ANS genes, secondary structure, promoter cis-acting elements, gene structure, evolutionary relationships, motif and expression levels of different tissues.In addition, the changes in peel anthocyanins content during different periods were analyzed by real-time PCR.These results provide new insights for further studies of the grape genome function and breeding.

Identification and physicochemical properties analysis of grape ANS gene family
Using the amino acid sequence of the Arabidopsis ANS gene as the query sequence, a total of 121 genes were retrieved using the TBtools blast alignments and NCBI protein blast, and named VvANS1-VvANS121 based on the location of the gene on the chromosome.The shortest amino acid length is 200aa (VvANS96) and the longest is 701aa (VvANS52).The molecular weight was between 22731.33Da and 80177.52Da.The isoelectric point of (PI) was in the range from 4.98 (VvANS36) to 9.32 (VvANS110), the PI value of VvANS84 was 7, which was an neutral protein.In addition to the VvANS66, VvANS76, VvANS80, VvANS96, VvANS110 and VvANS114 were basic protein because their isoelectric point was greater than 7, all other were acidic protein.The instability index of 65 (53.72%)VvANS protein was greater than 40, indicating that these proteins were unstable proteins.Except for VvANS76, all other were hydrophilic proteins (Supplementary Table S1).Based on the physicochemical properties of proteins, predicted family members may play different functions.

Evolutionary tree, motif, gene structure, domain analysis
The ANS amino acid sequences of grape were used to construct a phylogenetic tree (Fig. 1), they were divided into 8 subgroups based on evolutionary relationships, with I subgroup having the most genes and VII subgroup having the least genes.VvANS genes contained 2-8 exons, most genes contain 3 exons, 19 genes contain only 2 exons, and VvANS69 and VvANS52 contain 8 exons, and the gene structure in the same branch genes has the same distribution and length (Fig. 2).The conserved motif of VvANS gene family proteins is predicted from the MEME website (Fig. 2), with a total of 10 motifs, the N terminus of most of the sequences are motif3, the C terminus is motif5.43 genes contain motif10, 40 genes contain motif2, VvANS23, VvANS52 and VvANS108 all contain the repetitive motif, and genes in the same clade have similar motif positions and numbers.In the NCBI-CDD prediction, all VvANS genes had 2OG-Fe_Oxy (Fig. 2).
Fig. 1 Phylogenetic analysis of the grape ANS gene family.Phylogenetic trees were constructed using the ANS protein sequences.Neighbor-joining method was adopted, and the bootstrap value was set to be equal to 1000.The similarity is calculated mainly through the progressive comparison method of sequence comparison

Analysis of promoter cis-acting elements and tissue expression patterns
Cis-acting elements directly affect the function of downstream genes, and the cis-acting element analysis of the first 2000 bp of grape ANS genes.The results showed that VvANS19 and VvANS118 did not contain any acting elements, other VvANS genes mainly contained light, hormone, abiotic stress, meristem response elements.Hormone response elements contained auxin, gibberellin, abscisic acid, salicylic acid, methyl jasmonate response elements, and abiotic stress response elements contained low temperature, drought and anaerobic induction response elements (Fig. 2).Through the intersection of 119 genes between acting elements revealed that all 119 genes contained light response elements, including two genes containing only light response elements, namely VvANS18 and VvANS82, and only three genes contained light, hormone, abiotic stress, meristem response elements, namely VvANS24, VvANS88, VvANS114.VvANS79 only contains light response and anaerobic induction response elements, and VvANS20 only contains light response and meristem response elements (Fig. 3).
Analysis of the expression levels of VvANS genes in different tissues (Fig. 4), showed that genes in the same subfamily with similar expression levels.VvANS1, VvANS7, VvANS27, VvANS43, VvANS87, VvANS88, VvANS89, VvANS111 and VvANS121 were significantly upregulated in all tissues.VvANS1 and VvANS43 are located in subgroupI, VvANS27 and VvANS111 are located in sub-groupIV, VvANS87, VvANS88, VvANS89 and VvANS121 are located in subgroupV, VvANS7 is located in the sub-groupVI.The expression of VvANS105 was higher in seeds during and after fruit setting.VvANS60 was higher in seeds during the fruiting period and lower in other periods, and VvANS17 was higher in flesh and midmature peel.VvANS49 was higher in seeds during midmaturity, and VvANS23 and VvANS75 were higher in seeds, peel and flesh during mid-maturity and maturity, indicating that these genes may be involved in pigment synthesis.

Chromosomal localization and collinearity analysis
Chromosome mapping analysis using TBtools software (Version 1.108) showed that a total of 121 genes were distributed on 18 chromosomes, of which 6 genes were located on unknown chromosomes.There are only 2 genes on chromosomes 1, 6 and 13. 9 genes on chromosome 2 and 18, 6 genes on chromosome 4 and 12.There are 15 genes on chromosomes 5 and 10, 4 genes on chromosomes 7, 8, 15, and 19.13, 8, 5 and 7 genes on chromosome 3, 9, 11 and 16, respectively (Fig. 5A).Genes on chromosomes 5 and 10 are the most widely distributed, accounting for 12% of the total genes, followed by chromosomes 3 with 11% of the total genes, and genes on chromosomes 1, 6 and 13 each with 2% of the total genes (Fig. 5B).
In order to further explore the evolutionary relationship of VvANS gene family, the collinearity map was drawn with four representative plants (Fig. 6B), with 27, 55, 93 and 8 pairs of Arabidopsis, peach, apple and rice, indicating that there are more homologous genes of grape and dicots than those of monocots.
The Ka/Ks allowed estimation of their evolutionary selection pressure to further understand the evolutionary relationships of the grape ANS gene family (Fig. 9).From 13 pairs of genes with collinear relationship, the Ka/Ks of 9 pairs of genes were calculated to be less than 1, suggesting that the grape ANS gene family may be dominated by purifying selection.

Secondary structure, subcellular localization and protein interaction of ANS family proteins in grape
Secondary structure prediction showed that none of the proteins had β-angles, mainly α-helices, irregular coiled and extended chains, with the most irregular coiled (40.43% -59.20%), followed by α-helices (18.59%-45.33%)and the least extended chain (8.58%-26.52%)(Supplementary Table S3).According to the subcellular localization prediction, the members of the grape ANS gene family were mainly located in the chloroplast, cytoplasm and nucleus, and only 14 genes were located in the Golgi apparatus (Supplementary Table S3).The interactions between 121 VvANS proteins were predicted by the STRING online website (Fig. 10), and the results showed that 43 VvANS proteins may interact, and these 43 VvANS proteins interact to form three independent protein interaction networks (PPI networks).VvANS7, VvANS27, VvANS50,

Determination of anthocyanin content and expression analysis of VvANS gene family in grape at different coloring stage
From S1 to S4 are different coloring stages of grapes, which are one week before color change (S1), the initial coloration period (S2), 50% coloration (S3) and complete coloration (S4), respectively (Fig. 11).With the increase of fruit coloring, anthocyanin content gradually increases.qRT-PCR analysis showed that the expression of VvANS gene was found in all stages, indicating that the  ANS gene family may be involved in all stages of grape color transformation, but the expression level varied irregularly in different growth stages (Fig. 12).

Discussion
Anthocyanin synthetase is a key enzyme in plant anthocyanin bioanabolic pathway, which can catalyze the conversion of colorless anthocyanins to colored anthocyanins, and plays an important role in plant color formation [26].Menssen [27] cloned and identified the first LDOX gene from maize A2 mutant using transposon labeling technology.ANS genes have been studied and cloned in many crops, such as Arabidopsis, apple, cacao, Ginkgo biloba, etc. [28][29][30][31], however, ANS genes involved in anthocyanins synthesis have rarely been studied in grapes.In this study, we found 121 grape ANS genes, which is a large gene family.Physicochemical properties analysis showed that most of the VvANS genes were acidic proteins, while only 6 were basic proteins and 1 was neutral protein (Supplementary Table S1).Each VvANS gene contained the conserved domain 2OG-Fe_Oxy (Fig. 2), which is consistent with that studied in Punica granatum [32].Subcellular localization found that VvANS gene was mainly localized in the cytoplasm, chloroplast and nucleus (Supplementary Table S3), which is consistent with the results studied in Cabernet Sauvignon grape [33].13 collinearity pairs in the VvANS gene family, namely VvANS4/VvANS94, VvANS4/VvANS102, VvANS6/VvANS95, VvANS6/VvANS101, VvANS57/ VvANS25, VvANS56/VvANS26, VvANS80/VvANS63, VvANS90/VvANS52, VvANS49/VvANS33, VvANS48/ VvANS31, VvANS64/VvANS112, VvANS27/VvANS111 and VvANS93/VvANS100.Both VvANS4 and VvANS6 have two tandem repeats, these genes with colinearity are all on close branches of the same subfamily.This suggests that these genes with colinear relationships may have similar functions.
The promoter of a gene may determine the function of a gene.In this study, cis-acting element analysis of the first 2000 bp sequence of VvANS gene found that there were more elements responsive to light, hormone and abiotic stress.Under low light conditions, Dendrobium color becomes lighter, mainly because DsDFR and DsANS expression in Dendrobium are light dependent, low light can down-regulate DsDFR and DsANS expression and reduce anthocyanin accumulation [34].The upregulated expression of structural genes (PAL, CHS, CHI, F3H, F3'H, FLS, DFR, ANS, UFGT) and regulatory genes (McMYB10) that can promote anthocyanin synthesis can promote the pigmentation and accumulation of anthocyanin in leaves and callus of begonia under long sunshine conditions [35].ABA accelerates the development of fruit color by activating PAL, CHS and ANS, key genes in the phenylc/flavonoid and anthocyanin pathways [36].In addition, a number of ion transporters as well as cellular signaling pathways associated with the stress response are induced by ABA, flavonoid and anthocyanin pathways [37,38].
By protein interaction analysis, 43 interaction between the proteins and the DFR, F3′H, CHI, CHI2 and the grape protein VIT_15s0021g00270.t01.Dihydroflavonol 4-reductase (DFR) is a key enzyme in the anthocyanin Fig. 12 Relative expression levels of ANS gene in grape treated at different periods.S1 period was used as control.The 2 −∆∆Ct method was used to calculate the relative expression.Error bars represent the mean ± SE from three biological repeats.Different letters denote significant differences, whereas the same lowercase letters indicate no statistical difference (P < 0.05).The critical value of each gene was 4.07 by checking the F critical value table biosynthesis pathway, and play an important role in plant and fruit coloration [39].Two genes (GlaDFR1 and GlaDFR2) cloned from gentian were overexpressed into tobacco plants, and the petals were found to be darker than the wild type in the T1 generation [40].Flavonoid 3′ -hydroxylase (F3′H) is the first key enzyme in the anthocyanin synthesis pathway from dihydrokanafalcohol, which plays an important role in regulating flower color and fruit color.Brassica napus and Petunia hybrida pollinate coloured flowers and Arabidopsis selfpollinate white flowers, so F3′H expression is very high in rapeseed and petunia organs [41].Charcone isomerase (CHI) is a key and rate-limiting enzyme in the synthesis of anthocyanins.This enzyme (CHI) and chalcone synthase (CHS) cooperate to regulate the synthesis of anthocyanins.CHI participates in the isomerization of chalcone and catalyzes the generation of chalcone to naringenin [42].
Studies have shown that the distribution of flavonoids and anthocyanins in different tissues and organs of plants is specific [43].In peach, it was found that the expression of PpANS gene was higher in fruit skin, fruit flesh and flower, and the expression level was the highest in peach skin [44].FcANS1 transcripts were only expressed in root tips, terminal buds, young leaves and young stems of fig tree, but not in mature leaves, stems or petioles [45].Jiang [46] found in the study of eggplant that the expression of SmANS gene was the highest in the peel and the second in the petal.In this study, on the basis of the molecular analysis, analyzed the expression of VvANS genes in different tissues, only a few genes showed higher expression in all tissues, expression of some genes is tissue-specific, the expression of VvANS105 was higher in seeds during and after fruit setting.VvANS60 was higher in seeds during the fruiting period and lower in other periods, and VvANS17 was higher in flesh and mid-mature peel.VvANS49 was high in seeds during mid-maturity, and VvANS23 and VvANS75 in seeds, peel, and flesh during mid-maturity and maturity.These results showed that the expression of ANS gene was higher in the parts with higher anthocyanin content.
A large number of studies have found that the expression of ANS has a certain correlation with the content of anthocyanins.Previous studies in Zoysiagrass (Zoysia japonica Steud.)showed that ZjANS gene expression was up-regulated in purple spike and stolons, while ZjANS gene expression was lower in green varieties [47].The insertion mutation of 5 bp in the coding region of ANS gene in raspberry (Rubus idaeus) leads to the premature termination of amino acid translation, which leads to the reduction of pigment in raspberry fruit [48].Carbone [49] found that the expression level of LDOX gene was low in the strawberry fruit turning red stage, and then showed an increasing trend.Shi [50] found that the expression level of LDOX genes in red petals of Magnolia was significantly higher than that in white petals.Boss [51] studied the expression of LDOX gene in the peel of eight different grape varieties, and found that the expression of LDOX gene was higher in the peel of red varieties, while the relative expression of LDOX gene was lower in the peel of white varieties.The qRT-PCR analysis in this study showed that VvANS17, VvANS20, VvANS22, VvANS27, VvANS31, VvANS35, VvANS40, VvANS47, VvANS53, VvANS55, VvANS63, VvANS73, VvANS76, VvANS110 and VvANS120.The expression of these genes was highest in the S1 period, indicating that these genes may be involved in transcriptional regulation before grape coloring.This was similar to that found in mangoes, where the expression of ANS gene was highest in green peels, followed by in red peels, and lowest in yellow peels [52].VvANS3, VvANS9, VvANS28, VvANS45, VvANS64, VvANS67, VvANS71, VvANS90, VvANS96, VvANS100 and VvANS101 had the highest expression in S2 period.VvANS12, VvANS13, VvANS21, VvANS43, VvANS79 and VvANS108 have the highest expression levels in S3 period, indicating that these genes play an important role in the fruit coloring process, which is consistent with the above research results.With the deepening of pigment, the expression level of ANS gene is gradually up-regulated.VvANS4, VvANS24, VvANS25, VvANS26, VvANS33, VvANS58, VvANS66, VvANS77, VvANS82, VvANS88, VvANS113 and VvANS119 had the highest expression in S4 period.These genes may be involved in the modification and degradation of anthocyanins at the late stage of anthocyanin synthesis.

Conclusion
In this study, 121 VvANS genes were found and distributed in 18 chromosomes, which could be divided into 8 subfamilies according to the evolutionary relationship.The analysis of promoter cis-acting elements showed that VvANS gene contains many response elements related to anthocyanin synthesis, such as light elements, auxin, gibberellin, abscisic acid, salicylic acid, methyl jasmonate response elements.Protein interaction prediction showed that some of the VvANS genes interact with the structural genes DFR, CHI and F3'H genes in the anthocyanin synthesis pathway.Fluorescence quantitative results showed that VvANS4, VvANS46, VvANS55, VvANS66, VvANS79 and VvANS108 were highly expressed in the green fruit stage, 50% coloring stage and full maturity stage, respectively.These genes can be used as candidate genes for subsequent functional studies.This study will provide a way to further understand the role of ANS gene family in grape development and coloration.

Plant materials and treatments
Using 'Pinot noir' grape berries as research materials, the berries were collected from four periods of time: one week before color change, the initial coloration period, 50% coloration and complete coloration were rapidly peeled, accurately weighed and then quickly frozen with liquid nitrogen and stored at -80℃ until needed for further analysis.

Identification of ANS genes family in grape
The amino acid sequences of Arabidopsis ANS gene were downloaded, from the TAIR database (Arabidopsis thaliana Information Resource, https:// www.arabi dopsis.org/).Grape genome and annotation information were downloaded from the phytozome v13 (https:// phyto zome.jgi.doe.gov/ pz/ portal.htm) [53].Their amino acid sequences were utilized for homology comparison and removal of redundant sequences at TBtools [54].The screening results were then combined with the 2OG-Fe_ Oxy functional domain.We searched a total of 121 grape ANS genes and downloaded their gene length, CDS (coding sequence length) and amino acid sequences.

Analysis of the physicochemical properties of the grape ANS gene family
The molecular weight (MW), isoelectric point (PI), instability coefficient, fat index, and hydrophilicity of the grape ANS family were analyzed from the online software ExPASy (https:// web.expasy.org/ protp aram/) [55].

Evolutionary tree, motif, gene structure, domain analysis
The multiple sequence alignment of the VvANS proteins was conducted using the ClustalX 1.83 software, and MEGA 7.0 software was used to construct phylogenetic trees with the bootstrap value set to 1000, and beautify was performed at the EVOLVIEW website (https:// evolg enius.info// evolv iew-v2/# login) [56].Gene structure prediction was constructed using TBtools software.The conserved motifs of proteins were constructed by the MEME (http:// meme-suite.org/ tools/ meme) [57], the number of motifs was set to 10 and conserved domains of the proteins were analyzed at the NCBI-CDD site (https:// www.ncbi.nlm.nih.gov/ cdd/).

Analysis of promoter cis-acting elements and tissue expression patterns
The 2000 bp upstream sequence of the VvANS gene initiation codon (ATG) was obtained using the TBtools software with the online software PlantCARE (http:// bioin forma tics.psb.ugent.be/ webto ols/ plant care/ html/) [58] and plotted at TBtools (Version 1.108).The expression levels of grape ANS genes in different tissues were searched from the BAR database (https:// bar.utoro nto.ca/), including tendril, roots, stems, leaves, flowers, seeds, pericarp etc., were searched, and the selected data were log10-transformed at TBtools (Version 1.108).

The ANS gene location and synteny analysis
The predicted of the position of the grape ANS gene on the chromosome was constructed from TBtools (Version 1.108) and was plotted at TBtools.To analyze the collinearity relationships of VvANS genes, the genome and annotation files of Arabidopsis, peach, apple, and rice used for collinearity analysis were downloaded from phytozome v13 (https:// phyto zome.jgi.doe.gov/ pz/ portal.html), and the gene pairs of the ANS genes were determined using TBtools synteny, and the diagram was drawn via TBtools (Version 1.108).

RNA extraction and qRT-PCR analysis
The primers (Supplementary Table S4) were synthesized by Shanghai (Shanghai) Biological Engineering Co., Ltd.RNA was extracted from pinot noir fruit, reverse transcribed as single-stranded cDNA as template, and the quantitative reaction system was 20 μL: 2 μL cDNA, 1 μL each of upstream and downstream

Fig. 2
Fig. 2 Analysis of motifs, domains, promoter cis-acting elements and gene structure of VvANS gene.A Analysis of conserved motif of VvANS gene.B Analysis of conserved domain of VvANS gene.C Analysis of cis-acting elements of VvANS gene promoter.D The exon-intron structure of VvANS genes

Fig. 3
Fig.3The intersection of promoter cis-acting elements.Numbers represent the number of involved genes

Fig. 5 Fig. 6 (
Fig. 5 Chromosomal localization and distribution of the VvANS gene family.A Chromosomal localization of the VvANS gene family.The left scale indicates the chromosome length (Mb), with ANS gene markers on the right side of each chromosome.Different chromosomal colors indicate different gene densities, with red indicating the highest density and blue the lowest density.B Chromosome distribution of the VvANS gene family

Fig. 7 Fig. 8
Fig. 7 Relative synonymous codon usage and quantity analysis of ANS gene codon in grape.A Usage of synonymous codons.B The preferred number of synonymous codons

Fig. 9
Fig. 9 Selective pressure analysis of VvANS homologous gene pairs.The X axis represents the Ka value, the Y axis represents the Ks value, and the Z axis represents the ratio of Ka to Ks

Fig. 10
Fig. 10 Analysis of protein interaction of ANS gene family in grape.Nodes indicate proteins.Empty nodes indicate the protein of unknown 3D structures, and filled nodes indicate that some 3D structures are known or predicted.The connection between nodes indicates the interaction between proteins, and different colors correspond to different types of interaction

Fig. 11
Fig. 11 Content of grape anthocyanins in 4 periods.S1 represents the one week before color change, S2 represents the initial coloration period, S3 represents the 50% coloration, and S4 represents the complete coloration.The critical value is 4.07 by checking the F critical value table